If looks could kill

Aesthetically, both of these displays are best of breed. Aside from the allure of a 20” flat panel display, both displays are less than two inches deep with thin bezels. Unlike your video card or motherboard, looks are important for a display. Why spend several hundred dollars on a display that you can’t stand looking at? We have several awkward displays with decent specifications in the past and needless to say, we were more than happy to send those displays back to the manufacturer as quickly as possible.

As the Apple fans continue to snicker with anticipation, we might as well just get it out there - the Apple Cinema 20” is a phenomenally beautiful monitor. Typically, we don’t even spend much time analyzing the look of a display, but Apple clearly deserves it here. The panel of the Cinema 20” display is encased in a brushed aluminum bezel with a brushed aluminum stand. Along the sides of the display, acrylic-on-white runners completely seal the display off from the outside world. We have criticized several display manufacturers in the past for allowing too much air and light into the housing of the panel and backlights. If the LCD panel can be passively cooled well enough, we always encourage manufacturers to seal the internal components of their displays. Less dust in the inside of the display is bound to prolong the life of the electronics inside.

Click to enlarge.

The all aluminum construction adds to the cost of the display undoubtly, but for some, the cost is surely justified. In Apple spirit, a pulsating white LED and two touch sensitive inputs are the only visible outcroppings from the glass and aluminum monolith. We can tell that the Cinema 20” was designed by someone who actually uses it; the LED turns off while the monitor is in use. Oddly, however, we were wildly distracted by the ultra-reflective aluminum Apple logo on the front of the display. Originally, our display was pitched in such a manner that the Apple logo seemed to only reflect a few square inches of the keyboard, and this drove us crazy.

However, many of our readers jump on us whenever we decide to comment on “what is art?” So, we will leave that to the reader. Below, you can also see a few images of the Dell 2005FPW. The stand is bulkier, but with reason, since the panel is flexible on all three axes. The UltraSharp 2005FPW stand can also be removed and replaced with a VESA compatible wall mount. Not unexpectedly, the Dell 2001FP, 1905FP and other stands are also interchangeable.

The inputs remain largely unchanged from the Dell 2001FP, with the exception of an additional menu interface button. The formula for monitor design seems to have been perfected at Dell, and not surprisingly, the UltraSharp 2005FPW looks nearly identical to any other Dell monitor manufactured since Q2’03. We are slightly concerned about the passive cooling vents in the rear of the display, as these will allow for dust particles to eventually enter the electronics of the panel. However, we did not see any light from the backlights seeping through these exhausts like we did on the Dell 1905FP.

After a few hours of operation, we recorded the air temperature near the exhausts of the Dell 2005FPW at 28 degrees Celsius with an ambient air temperature of 23 degrees Celsius. There are no exhausts on the Apple Cinema 20” display, so this test is not applicable for Apple.

A 9700pro is an excellent videocard for this monitor if you dont plan on playing games like Halflife 2 or WoW. The 9700pro's DVI signal will work perfectly, however you should install the latest ATI driver from ATI.com.

"but what about resolution options, DDC (or what its called - the function that delivers 16:10 widescreen). "

DDC or whatever you had in mind does not deliver a widescreen display. If you install the latest ATI drivers you will see that the standard windows graphics profiles in display settings have 1680x1050x32. The ATI driver has the ability to force 720p or 1080i but it is not necessary. Reply

dust acts as an insulator? the monitor is standing vertically so the only place dust would gather is on the top, not on any of the electronics. or do you lie your monitor face down on a glass desk and work from underneath the desk? i know it's gaining ergonomic popularity, but i thought only in malawi.Reply

This is the kind of review that I'd like to see become the standard for comparing LCDs. Pick an assortment of LCDs that are using the same type of matrice panel(TN, IPS, PVA/MVA) and compare these monitors to each other. They don't have to be using the exact same panel, as in this case, just one based on the same technology. This will provide the reader with something much more like an apples to apples comparison than the apples to oranges comparision that you will get otherwise. (Sorry, about the Apple pun.)

With all three (or four) types of matrices having such distinctive strengthes and weaknesses, you pretty much have to decide which of these patterns of characteristics will best match how you use the computer and then go looking for that particular type of matrice in a panel.

The questions for the reviewers then becomes how well does a particular display cope with it's inherent weaknesses, as well as how well does it emphasize what should be its relative strengths.

For example, in this Anandtech review of IPS panel displays, one of the main problems for IPS panels to overcome is a relatively low contrast ratio, which can affect how well it reproduces black; so, this specification is one that should be given particular attention in the review, especially the subjective analysis.

Response times are always a point of emphasis in LCD reviews, and with IPS screens, as was noted in the review, you should expect to see the relatively modest black-white response time made up for by the fact that response times stay relatively consistent, even when changes in shade become smaller. (That is why I was confused by this statement, regarding motion blur, in the review, "...two states that are very close to each other take less time than two states further apart from each other, which results in pixels that are not just delayed in a uniform manner, but at several different speeds across the entire panel depending on the hue". I thought that it was with states that were closer together that you saw the slower response time, due to the voltage differential being so small in these cases.)

In sum, I'd like to see more LCD reviews start with what is known about the panel that is being used (such as is detailed in this very good xbitlabs analysis, http://www.xbitlabs.com/articles/other/display/lcd... and use this understanding to provide a framework for comparing LCDs in terms of their strengths and weaknesses. Essentially, while there is no one LCD monitor that is as well rounded for many purposes as is a CRT, anyone buying a LCD will be looking for the one that imposes fewer compromises on the them and for compromises that impinge less on how the screen will be used by that particular buyer.

nortexoid: Dust acts as an insulator. Wrapping your DSP in a warm cuddly blanket will probably make it fail prematurely.

glennpratt: Unfortunately I cannot quite vouche for the fact that aluminum really acts as a heat sink on this display. The housing is completely smooth and does not really create additional surface area for heat dissapation. Aluminums ability to transfer heat well only helps if there is additional surface area for the sink to come in contact with air.

In reality, the reason why Apple can get away with a beveled design without any passive exhaust has more to do with the fact that the inverter is housed in a separate brick from the display. Samsung does this too in many of their high end displays.